Richard C. Brower
Biography
Professor Brower's research in theoretical and computational physics includes string theory, hadron phenomenology,
quantum chromodynamics, lattice formulations of quantum field theory, and statistical mechanics. He has experience with parallel algorithms starting with data parallel methods on the the Connection Machine to GPU cost-effective cluster architectures. Algorithmic research includes multigrid Dirac solvers, finite-element methods on Simplicial Manifolds, the Möbius Domain Wall algorithm, chronological inverter and cluster algorithms for bosonic and fermionic systems. He is an NVIDIA CUDA fellow and serves on the USQCD Executive Committee and as the National Software Coordinator for the SciDAC software for the HEP and NP grants.
quantum chromodynamics, lattice formulations of quantum field theory, and statistical mechanics. He has experience with parallel algorithms starting with data parallel methods on the the Connection Machine to GPU cost-effective cluster architectures. Algorithmic research includes multigrid Dirac solvers, finite-element methods on Simplicial Manifolds, the Möbius Domain Wall algorithm, chronological inverter and cluster algorithms for bosonic and fermionic systems. He is an NVIDIA CUDA fellow and serves on the USQCD Executive Committee and as the National Software Coordinator for the SciDAC software for the HEP and NP grants.
Presentations
Paper
Accelerators
Algorithms
Heterogeneous Systems
Intermediate
